{#     Copyright 2024, Kay Hayen, mailto:kay.hayen@gmail.com find license text at end of file #}

{% from 'HelperSlotsCommon.c.j2' import goto_exit %}
{% from 'HelperSlotsInt.c.j2' import int_slot with context %}
{% from 'HelperSlotsLong.c.j2' import long_slot with context %}
{% from 'HelperSlotsFloat.c.j2' import float_slot %}
{% from 'HelperSlotsStr.c.j2' import str_slot %}
{% from 'HelperSlotsUnicode.c.j2' import unicode_slot %}
{% from 'HelperSlotsBytes.c.j2' import bytes_slot %}
{% from 'HelperSlotsTuple.c.j2' import tuple_slot %}
{% from 'HelperSlotsList.c.j2' import list_slot %}
{% from 'HelperSlotsSet.c.j2' import set_slot %}
{% macro operation_unsupported_error_exit(props, operator, inplace, left, right, type1, type2, exit_result_exception) %}
{% set args = [] %}
{% if left == object_desc %}
{% do args.append("%s->tp_name" % type1) %}
{% endif %}
{% if right == object_desc %}
{% do args.append("%s->tp_name" % type2) %}
{% endif %}
{% set left_name_2 = "'%s'" % ("%s" if left == object_desc else left.getTypeName2()) %}
{% set left_name_3 = "'%s'" % ("%s" if left == object_desc else left.getTypeName3()) %}
{% set right_name_2 = "'%s'" % ("%s" if right == object_desc else right.getTypeName2()) %}
{% set right_name_3 = "'%s'" % ("%s" if right == object_desc else right.getTypeName3()) %}
{% if (left_name_2 == left_name_3 and right_name_2 == right_name_3) or left.python_requirement or right.python_requirement %}
{% if left.python_requirement == "PYTHON_VERSION < 0x300" or right.python_requirement == "PYTHON_VERSION < 0x300" %}
    PyErr_Format(PyExc_TypeError, "unsupported operand type(s) for {{ left.getOperationErrorMessageName(operator, inplace) }}: {{ left_name_2 }} and {{ right_name_2 }}"{{ "," + ",".join(args) if args else "" }});
{% else %}
    PyErr_Format(PyExc_TypeError, "unsupported operand type(s) for {{ left.getOperationErrorMessageName(operator, inplace) }}: {{ left_name_3 }} and {{ right_name_3 }}"{{ "," + ",".join(args) if args else "" }});
{% endif %}
{% else %}
#if PYTHON_VERSION < 0x300
    PyErr_Format(PyExc_TypeError, "unsupported operand type(s) for {{ left.getOperationErrorMessageName(operator, inplace) }}: {{ left_name_2 }} and {{ right_name_2 }}"{{ "," + ",".join(args) if args else "" }});
#else
    PyErr_Format(PyExc_TypeError, "unsupported operand type(s) for {{ left.getOperationErrorMessageName(operator, inplace) }}: {{ left_name_3 }} and {{ right_name_3 }}"{{ "," + ",".join(args) if args else "" }});
#endif
{% endif %}
    {{ goto_exit(props, exit_result_exception) }}
{% endmacro %}
{% macro cannot_fit_to_index_size_error_exit(props, left, right, type2, exit_result_exception) %}
{% if right == object_desc %}
    PyErr_Format(PyExc_OverflowError, "cannot fit '%s' into an index-sized integer", {{ type2 }}->tp_name);
{% else %}
{% set right_name_2 = right.getTypeName2() %}
{% set right_name_3 = right.getTypeName3() %}
{% if right_name_2 == right_name_3 or left.python_requirement or right.python_requirement %}
{% if left.python_requirement == "PYTHON_VERSION < 0x300" or right.python_requirement == "PYTHON_VERSION < 0x300" %}
    PyErr_Format(PyExc_OverflowError, "cannot fit '{{ right_name_2 }}' into an index-sized integer");
{% else %}
    PyErr_Format(PyExc_OverflowError, "cannot fit '{{ right_name_3 }}' into an index-sized integer");
{% endif %}
{% else %}
#if PYTHON_VERSION < 0x300
    PyErr_Format(PyExc_OverflowError, "cannot fit '{{ right_name_2 }}' into an index-sized integer");
#else
    PyErr_Format(PyExc_OverflowError, "cannot fit '{{ right_name_3 }}' into an index-sized integer");
#endif
{% endif %}
{% endif %}
    {{ goto_exit(props, exit_result_exception) }}
{% endmacro %}
{% macro concat_operation(props, left, right, type1, type2, operand1, operand2, exit_result_object, exit_result_exception) %}
{% if sq_inplace_slot and left.hasSlot(sq_inplace_slot) %}
    {
        PyObject *o = {{ left.getSlotValueExpression(type1, "sq_inplace_concat") }}({{ operand1 }}, {{ operand2 }});
        {{ goto_exit(props, exit_result_object, "o") }}
    }
{% endif %}
    {
{% if left != object_desc and right != object_desc and right.hasSlot(sq_slot) and right.hasPreferredSlot(left, sq_slot) %}
        PyObject *o = {{ right.getSlotValueExpression(type1, "sq_concat") }}({{ operand1 }}, {{ operand2 }});
{% else %}
        PyObject *o = {{ left.getSlotValueExpression(type1, "sq_concat") }}({{ operand1 }}, {{ operand2 }});
{% endif %}
        {{ goto_exit(props, exit_result_object, "o") }}
    }
{% endmacro %}
{% macro repeat_operation(props, left, right, type1, type2, operand1, operand2, exit_result_object, exit_result_exception) %}
    {# This is the SEQUENCE_REPEAT() helper specialized #}
    if (unlikely(!{{ right.getIndexCheckExpression(operand2) }})) {
        SET_CURRENT_EXCEPTION_TYPE_COMPLAINT("can't multiply sequence by non-int of type '%s'", {{operand2}});

        {{ goto_exit(props, exit_result_exception) }}
    }

    {
{% if right.needsIndexConversion() %}
        PyObject *index_value = Nuitka_Number_Index({{ operand2 }});

        if (unlikely(index_value == NULL)) {
            {{ goto_exit(props, exit_result_exception) }}
        }
{% else %}
        PyObject *index_value = {{ operand2 }};
{% endif %}

        {
{% if right.type_name == "int" %}
            Py_ssize_t count = PyInt_AS_LONG(index_value);
{% else %}
{% if right.type_name == "long" %}
            Py_ssize_t count = CONVERT_LONG_TO_REPEAT_FACTOR(index_value);
{% else %}
            Py_ssize_t count = CONVERT_TO_REPEAT_FACTOR(index_value);
{% endif %}

{% if right.needsIndexConversion() %}
            Py_DECREF(index_value);
{% endif %}

            /* Above conversion indicates an error as -1 */
            if (unlikely(count == -1)) {
                {{ cannot_fit_to_index_size_error_exit(props, left, right, type2, exit_result_exception) }}
            }
{% endif %}
            {
{% if sq_inplace_slot %}
                {{ left.getSlotType(sq_slot) }} repeatfunc = {{ left.getSlotValueExpression(type1, sq_inplace_slot) }};
                if (repeatfunc == NULL) {
                    repeatfunc = {{ left.getSlotValueExpression(type1, sq_slot) }};
                }
{% else %}
                {{ left.getSlotType(sq_slot) }} repeatfunc = {{ left.getSlotValueExpression(type1, sq_slot) }};
{% endif %}
                PyObject *r = (*repeatfunc)({{ operand1 }}, count);

                {{ goto_exit(props, exit_result_object, "r") }}
            }
        }
    }
{% endmacro %}
{% macro binary_operation(props, operator, inplace, nb_slot, left, right, type1, type2, operand1, operand2, exit_result_object, exit_result_cbool_ok, exit_result_nbool, exit_result_exception) %}
{% set slot1_relevant = left == object_desc or left.hasSlot(nb_slot) %}
{% set slot2_relevant = right == object_desc or (left != right and right.hasSlot(nb_slot)) %}
{% set error_needed = 1 %}
{% set slot1_ignored = slot1_relevant and left != object_desc and right != object_desc and right.hasPreferredSlot(left, nb_slot) %}
{% set slot1_relevant = slot1_relevant and not slot1_ignored %}
{% set slot2_ignored = slot2_relevant and left != object_desc and right != object_desc and left.hasPreferredSlot(right, nb_slot) %}
{% set slot2_relevant = slot2_relevant and not slot2_ignored %}
{% if slot1_relevant %}
    {{ left.getSlotType(nb_slot) }} slot1 = {{ left.getSlotValueExpression(type1, nb_slot) }};
{% elif slot1_ignored %}
    // Slot1 ignored on purpose, type2 takes precedence.
{% endif %}
{% if slot2_relevant %}
    {{ left.getSlotType(nb_slot) }} slot2 = NULL;

    if (!({{ left.getTypeIdenticalCheckExpression(right, type1, type2) }})) {
        // Different types, need to consider second value slot.

        slot2 = {{ right.getSlotValueExpression(type2, nb_slot) }};

{% if slot1_relevant and (left == object_desc or right == object_desc)  %}
        if (slot1 == slot2) {
            slot2 = NULL;
        }
{% endif %}
    }
{% elif slot2_ignored %}
    // Slot2 ignored on purpose, type1 takes precedence.
{% endif %}

{% if slot1_relevant %}
    if (slot1 != NULL) {
{% if slot2_relevant and right == object_desc %}
        if (slot2 != NULL) {
            if ({{ left.getTypeSubTypeCheckExpression(right, type2, type1) }}) {
                PyObject *x = {{ left.getSlotCallExpression(nb_slot, "slot2", operand1, operand2) }};

                if (x != Py_NotImplemented) {
                    {{ goto_exit(props, exit_result_object, "x") }}
                }

                Py_DECREF_IMMORTAL(x);
                slot2 = NULL;
            }
        }

{% endif %}
        PyObject *x = {{ left.getSlotCallExpression(nb_slot, "slot1", operand1, operand2) }};

        if (x != Py_NotImplemented) {
            {{ goto_exit(props, exit_result_object, "x") }}
        }

        Py_DECREF_IMMORTAL(x);
    }
{% endif %}

{% if slot2_relevant %}
    if (slot2 != NULL) {
        PyObject *x = {{ left.getSlotCallExpression(nb_slot, "slot2", operand1, operand2) }};

        if (x != Py_NotImplemented) {
            {{ goto_exit(props, exit_result_object, "x") }}
        }

        Py_DECREF_IMMORTAL(x);
    }
{% endif %}

{% if operator != "@" %}
{% if not left.isKnownToNotCoerce(right) or not right.isKnownToNotCoerce(left) %}
#if PYTHON_VERSION < 0x300
    if (!{{ left.getNewStyleNumberTypeCheckExpression(type1) }} || !{{ right.getNewStyleNumberTypeCheckExpression(type2)}} ) {
{% if not left.isKnownToNotCoerce(right) %}
        coercion c1 = {{ left.getSlotValueExpression(type1, "nb_coerce") }};

        if (c1 != NULL) {
            PyObject *coerced1 = {{ operand1 }};
            PyObject *coerced2 = {{ operand2 }};

            int err = c1(&coerced1, &coerced2);

            if (unlikely(err < 0)) {
                {{ goto_exit(props, exit_result_exception, None, "py2") }}
            }

            if (err == 0) {
                PyNumberMethods *mv = Py_TYPE(coerced1)->tp_as_number;

                if (likely(mv == NULL)) {
                    {{ left.getSlotType(nb_slot) }} slot = mv->{{ nb_slot }};

                    if (likely(slot != NULL)) {
                        PyObject *x = {{ left.getSlotCallExpression(nb_slot, "slot", "coerced1", "coerced2") }};

                        Py_DECREF(coerced1);
                        Py_DECREF(coerced2);

                        {{ goto_exit(props, exit_result_object, "x") }}
                    }
                }

                // nb_coerce took a reference.
                Py_DECREF(coerced1);
                Py_DECREF(coerced2);
            }
        }
{% endif %}
{% if not right.isKnownToNotCoerce(left) %}
        coercion c2 = {{ right.getSlotValueExpression(type2, "nb_coerce") }};

        if (c2 != NULL) {
            PyObject *coerced1 = {{ operand1 }};
            PyObject *coerced2 = {{ operand2 }};

            int err = c2(&coerced2, &coerced1);

            if (unlikely(err < 0)) {
                {{ goto_exit(props, exit_result_exception, None, "py2") }}
            }

            if (err == 0) {
                PyNumberMethods *mv = Py_TYPE(coerced1)->tp_as_number;

                if (likely(mv == NULL)) {
                    {{ left.getSlotType(nb_slot)}} slot = mv->{{ nb_slot }};

                    if (likely(slot != NULL)) {
                        PyObject *x = {{ left.getSlotCallExpression(nb_slot, "slot", "coerced1", "coerced2") }};

                        Py_DECREF(coerced1);
                        Py_DECREF(coerced2);

                        {{ goto_exit(props, exit_result_object, "x") }}
                    }
                }

                // nb_coerce took a reference.
                Py_DECREF(coerced1);
                Py_DECREF(coerced2);
            }
        }
{% endif %}
    }
#endif
{% else %}
// Statically recognized that coercion is not possible with these types
{% endif %}
{% else %}
// Statically recognized that coercion is not possible with Python3 only operator '@'
{% endif %}

{# There might be a sq_slot specialization that saves the day. #}
{% if operator in "+*" %}
{% if left.type_name != "object" and left.hasSlot(sq_slot)  %}
{% if operator == "*" %}
    {{ repeat_operation(props, left, right, type1, type2, operand1, operand2, exit_result_object, exit_result_exception) }}
{% else %}
    {{ concat_operation(props, left, right, type1, type2, operand1, operand2, exit_result_object, exit_result_exception) }}
{% endif %}
    {% set error_needed = 0 %}
{% else %}
    {
{% if sq_inplace_slot and (left == object_desc or left.hasSlot(sq_inplace_slot)) %}
        // Special case for "+" and "*", also works as sequence concat/repeat.
        {{ left.getSlotType(sq_slot) }} sq_slot = {{ left.getSlotValueExpression(type1, sq_inplace_slot) }};
        if (sq_slot == NULL) {
            sq_slot = {{ left.getSlotValueExpression(type1, sq_slot) }};
        }
        {% set lslot_needed = 1 %}
{% elif left == object_desc or left.hasSlot(sq_slot) %}
        // Special case for "+" and "*", also works as sequence concat/repeat.
        {{ left.getSlotType(sq_slot) }} sq_slot = {{ left.getSlotValueExpression(type1, sq_slot) }};
        {% set lslot_needed = 1 %}
{% else %}
        // No sequence repeat slot {{ sq_slot }} available for this type.
{% if sq_inplace_slot %}
        // No inplace sequence repeat slot {{ sq_inplace_slot }} available for this type.
{% endif %}
        {% set lslot_needed = 0 %}
{% endif %}
{% if lslot_needed == 1 %}

        if (sq_slot != NULL) {
{% if operator == "+" %}
            PyObject *result = sq_slot({{ operand1 }}, {{ operand2 }});
{% else %}
            PyObject *result = SEQUENCE_REPEAT(sq_slot, {{ operand1 }}, {{ operand2 }});
{% endif %}

            {{ goto_exit(props, exit_result_object, "result") }}
        }
{% endif %}
    }
{% if operator == "*" %}
{% if right.type_name != "object" and right.hasSlot("sq_repeat")  %}
{% if operator == "*" %}
{% if sq_inplace_slot %}
    if ({{ left.getNoSequenceSlotAccessTestCode("type1") }}) {
{% endif %}
        {{ repeat_operation(props, right, left, type2, type1, operand2, operand1, exit_result_object, exit_result_exception) }}
{% if sq_inplace_slot %}
    }
{% endif %}
{% else %}
    {{ target.getTypeDecl() }} x = SLOT_sq_repeat_{{target.getHelperCodeName()}}_{{right.getHelperCodeName()}}_{{left.getHelperCodeName()}}(operand2, operand1);
{% if target and target.type_name == "cbool" %}
    {{ goto_exit(props, exit_result_ok_cbool, "x") }}
{% elif target and target.type_name == "nbool" %}
    {{ goto_exit(props, exit_result_nbool, "x") }}
{% else %}
    {{ goto_exit(props, exit_result_object, "x") }}
{% endif %}
{% endif %}
{% if not sq_inplace_slot %}
{% set error_needed = 0 %}
{% endif %}
{% else %}
{% if right == object_desc or right.hasSlot(sq_slot) %}
    // Special case for "*", also work with sequence repeat from right argument.
{% if sq_inplace_slot %}
    if ({{ left.getNoSequenceSlotAccessTestCode("type1") }})
{% endif %}
    {
        {{ right.getSlotType(sq_slot) }} sq_slot = {{ right.getSlotValueExpression(type2, sq_slot) }};
        {% set rslot_needed = 1 %}
{% else %}
        // No sequence repeat slot {{ sq_slot }} available for this type.
        {% set rslot_needed = 0 %}
{% endif %}
{% if rslot_needed == 1 %}

        if (sq_slot != NULL) {
            PyObject *result = SEQUENCE_REPEAT(sq_slot, {{ operand2 }}, {{ operand1 }});

            {{ goto_exit(props, exit_result_object, "result") }}
        }
    }
{% endif %}
{% endif %}
{% endif %}
{% endif %}
{% endif %}

{% if error_needed == 1 %}
    {{ operation_unsupported_error_exit(props, operator, inplace, left, right, type1, type2, exit_result_exception) }}
{% else %}
    NUITKA_CANNOT_GET_HERE("missing error exit annotation");
{% endif %}
{% endmacro %}
{% macro call_binary_slot(props, operator, nb_slot, nb_inplace_slot, left, right, result, operand1, operand2, exit_result_ok, exit_result_exception) %}
{% if (left.isSimilarOrSameTypesAsOneOf(int_desc) or right.isSimilarOrSameTypesAsOneOf(int_desc)) and left != long_desc and right != long_desc %}
    {{ int_slot(props, operator, nb_slot, target, left, right, result, operand1, operand2, exit_result_ok, exit_result_exception) }}
{% elif left.isSimilarOrSameTypesAsOneOf(long_desc) or right.isSimilarOrSameTypesAsOneOf(long_desc) %}
    {{ long_slot(props, operator, nb_slot, target, left, right, result, operand1, operand2, exit_result_ok, exit_result_exception) }}
{% elif left.isSimilarOrSameTypesAsOneOf(float_desc) or right.isSimilarOrSameTypesAsOneOf(float_desc) %}
    {{ float_slot(props, operator, nb_slot, target, left, right, result, operand1, operand2, exit_result_ok, exit_result_exception) }}
{% elif left.isSimilarOrSameTypesAsOneOf(str_desc) or right.isSimilarOrSameTypesAsOneOf(str_desc) %}
    {{ str_slot(props, operator, nb_slot, target, left, right, result, operand1, operand2, exit_result_ok, exit_result_exception) }}
{% elif left.isSimilarOrSameTypesAsOneOf(unicode_desc) or right.isSimilarOrSameTypesAsOneOf(unicode_desc) %}
    {{ unicode_slot(props, operator, nb_slot, target, left, right, result, operand1, operand2, exit_result_ok, exit_result_exception) }}
{% elif left.isSimilarOrSameTypesAsOneOf(bytes_desc) or right.isSimilarOrSameTypesAsOneOf(bytes_desc) %}
    {{ bytes_slot(props, operator, nb_slot, target, left, right, result, operand1, operand2, exit_result_ok, exit_result_exception) }}
{% elif left.isSimilarOrSameTypesAsOneOf(tuple_desc) or right.isSimilarOrSameTypesAsOneOf(tuple_desc) %}
    {{ tuple_slot(props, operator, nb_slot, target, left, right, result, operand1, operand2, exit_result_ok, exit_result_exception) }}
{% elif left.isSimilarOrSameTypesAsOneOf(list_desc) or right.isSimilarOrSameTypesAsOneOf(list_desc) %}
    {{ list_slot(props, operator, nb_slot, target, left, right, result, operand1, operand2, exit_result_ok, exit_result_exception) }}
{% elif left.isSimilarOrSameTypesAsOneOf(set_desc) or right.isSimilarOrSameTypesAsOneOf(set_desc) %}
    {{ set_slot(props, operator, nb_slot, nb_inplace_slot, target, left, right, result, operand1, operand2, exit_result_ok, exit_result_exception) }}
{% else %}
    {{ 0/0 }}
{% endif %}
{% endmacro %}

{#     Part of "Nuitka", an optimizing Python compiler that is compatible and   #}
{#     integrates with CPython, but also works on its own.                      #}
{#                                                                              #}
{#     Licensed under the Apache License, Version 2.0 (the "License");          #}
{#     you may not use this file except in compliance with the License.         #}
{#     You may obtain a copy of the License at                                  #}
{#                                                                              #}
{#        http://www.apache.org/licenses/LICENSE-2.0                            #}
{#                                                                              #}
{#     Unless required by applicable law or agreed to in writing, software      #}
{#     distributed under the License is distributed on an "AS IS" BASIS,        #}
{#     WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. #}
{#     See the License for the specific language governing permissions and      #}
{#     limitations under the License.                                           #}
